All though i now know that you are basically trolling me, i will pretend you are serious and answer your questions
Just what makes you think I am trolling? That I don't just accept whatever you say?
Pointing out problems isn't trolling.
no far away does not even normally appear the same to everyone. goggle the word parallax (not the one in the bad green lantern movie)
Far away does appear basically the same to everyone.
That is why everyone on Earth observing the sun, sees it basically the same.
Even the moon is far enough away such that everyone observing it sees basically the same face.
Yes there is some minor variation as the moon is only 400 000 km away, but it appears the same.
And for a more distant example, there are the stars, where everyone on Earth sees the constellations the same. Yes, Earth obstructs the view to half of the sky and so the ones you can see vary with your position on Earth, and the curvature of Earth makes the stars appear at a different position relative to the horizon, but the constellations that are visible appear the same.
Compare that to something that is close. 2 people looking at a building, where that building is close compared to the separation between the people see significantly different views, in some cases they see different sides of the building.
Draw a circle, and then move around close to it and see how it appears to distort into an ellipse.
And yes, parallax does explain this.
When something is close, the parallax is large.
For example, if you have 2 people separated by 1 unit, and the object is 1 unit away from the midpoint, then the parallax is ~53 degrees.
So these people see the object from quite a different angle.
But if the object is far away, say 1000 units away from the midpoint, then the parallax drops to 0.06 degrees. Now the 2 people are seeing the object from basically the same angle and thus will see basically the same thing.
If you increase the distance to 1 million units away, then the parallax drops to 0.00006 degrees. Absolutely tiny.
This not only determines what they see of the object, but also what direction they have to look.
For example, if the 2 people were separated by a line going due east/west, and the object was straight up above the midpoint, then in the first case, the eastern observer has to look ~26 degrees west of straight up, while the western observer has to look ~26 degrees east of straight up.
In the last case they are both basically looking straight up.
So if the stars are very far away, without invoking magic bendy light (which you need an explanation for) if a star appeared directly overhead for one person, it should appear directly overhead for everyone.
reason is lensing and no it would not provide directionality at least not easily
If it doesn't provide a directionality for it to curve, then what way is it meant to curve?
The reason MUST provide a directionality, and it also provides the magnitude.
For gravitational lensing the directionality is towards the object, just like things fall towards the object.
For refraction it will be either towards or away from normal, depending on if the light is going into a higher or lower refractive index.
if it explained nothing to you that is a you problem not a me problem. i presented a reason why things look the way they do. nothing more is asked of anyone.
No, if it explained nothing, then that is your problem.
You presented a collection of assertions.
You asserted that light curves, giving an example of gravitational lensing, but you provided no explanation of just what is providing the gravity to cause this gravitational lensing or what else causes the light to curve, you made no attempt to explain the directionality, which again would involve discussing what is causing it to curve, nor did you try to explain the extent that it curves.
But more importantly, you made no attempt at all to explain why the stars appear to circle the 2 celestial poles, or to put it as the OP did, you made no attempt to explain "what causes the heavens to rotate".